EP0871279A1 - Rotor for an electric motor - Google Patents

Rotor for an electric motor Download PDF

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Publication number
EP0871279A1
EP0871279A1 EP98104529A EP98104529A EP0871279A1 EP 0871279 A1 EP0871279 A1 EP 0871279A1 EP 98104529 A EP98104529 A EP 98104529A EP 98104529 A EP98104529 A EP 98104529A EP 0871279 A1 EP0871279 A1 EP 0871279A1
Authority
EP
European Patent Office
Prior art keywords
hub
magnet
rotor
internal thread
area
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP98104529A
Other languages
German (de)
French (fr)
Other versions
EP0871279B1 (en
Inventor
Jürgen Dipl.-Ing. Goltz
Alfred Dipl.-Ing. Heinrich
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Baermann Max GmbH
Max Baermann GmbH
Original Assignee
Baermann Max GmbH
Max Baermann GmbH
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Publication of EP0871279A1 publication Critical patent/EP0871279A1/en
Application granted granted Critical
Publication of EP0871279B1 publication Critical patent/EP0871279B1/en
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Classifications

    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K1/00Details of the magnetic circuit
    • H02K1/06Details of the magnetic circuit characterised by the shape, form or construction
    • H02K1/22Rotating parts of the magnetic circuit
    • H02K1/27Rotor cores with permanent magnets
    • H02K1/2706Inner rotors
    • H02K1/272Inner rotors the magnetisation axis of the magnets being perpendicular to the rotor axis
    • H02K1/2726Inner rotors the magnetisation axis of the magnets being perpendicular to the rotor axis the rotor consisting of a single magnet or two or more axially juxtaposed single magnets
    • H02K1/2733Annular magnets

Definitions

  • the invention relates to a rotor for an electric motor, the an external magnet with an opening and one located in the opening and connected to the magnet Has hub with an internal thread. Furthermore concerns the invention a method for producing an inventive Rotors.
  • the invention lies Task based on a rotor and a method for its manufacture provide where the internal thread of the hub from damage or deformation by the magnet during effective during manufacture and use is protected.
  • the object is achieved in that Rotor of the type mentioned the outer diameter of the hub at least in the area of the internal thread smaller than the internal diameter the opening of the magnet is in this area.
  • Such a configuration prevents deformation and damage sensitive part of the hub, namely the area of the internal thread, spaced from the surrounding magnet. Such a spacing of the hub and magnet can no force is transferred from the magnet to the hub. Farther is advantageous on a rotor designed in such a way that even when forces are exerted on the hub as a movement thread serving internal thread are not deformed can.
  • the magnet of the rotor inside in the area where it is connected to the hub radial recesses into which the projections of the Intervene at least partially.
  • the hub is rotatably with the magnet connected.
  • a non-rotatable connection can also be made by recesses in the hub will be caused when encapsulated with magnetic material fill out.
  • the hub faces axially Direction of an area adjoining the internal thread with a cylindrical inner wall whose diameter equal to or slightly larger than the outside diameter of the internal thread is.
  • a cylindrical inner wall whose diameter equal to or slightly larger than the outside diameter of the internal thread is.
  • the enlarged diameter of the Female thread adjoining area will have friction an axis arranged in the hub avoided.
  • the cylindrical part of the hub also with any large diameter or tapering towards the internal thread be executed. With such a cylindrical shape The area may be easier to remove the hub from the injection mold can be achieved.
  • this area can move in the axial direction second area with a compared to the outer diameter of the Connect the internal thread of the expanded inner diameter.
  • this area can at Use of a threaded spindle guided through the hub corresponding step-widening as a stop surface serve for this.
  • the magnet expediently points in the area in which it connected to the hub, two sections with different Inner diameters.
  • Such a shape is the hub additionally against axial displacement in the axial direction secured within the magnet.
  • the hub is made made of plastic.
  • a movement thread A threaded spindle is guided in the hub.
  • Plastic as a particularly suitable material that as good friction partner for different materials of a threaded spindle has advantageous properties.
  • a motion thread is to avoid deformation and damage for good running behavior of Rotor and lead screw important.
  • thermal and mechanical properties of the plastic used fillers can also be used. By using it of fillers can affect the friction behavior, the thermal conductivity and the vibration damping of the plastic advantageous to be influenced.
  • the manufacture of one Plastic hub particularly inexpensive and therefore good for one Suitable for mass production.
  • the magnet can also be used as a plastic-bonded magnet be trained. Such plastic-bonded magnets can simply and inexpensively manufactured by injection molding will.
  • the magnet can be isotropic or anisotropic be trained. The magnet is used for anisotropic production magnetized directly in the tool.
  • the task is also determined by a procedure for Production of a rotor according to the invention solved.
  • the hub is moved before the encapsulation with the magnetic material inserted in a core that the hub in the area of Encloses internal thread in the form of a hollow cylinder, wherein the inner diameter of the hollow cylinder is essentially that Corresponds to the outer diameter of the hub in the area of the internal thread.
  • the core is removed from the Magnets removed.
  • the distance between the hub in the area of the internal thread and the surrounding magnet given by the thickness of the wall of the hollow cylinder.
  • the rotor 1 has an external cylindrical magnet 2 and a hub partially arranged in this magnet 3 on.
  • the hub 3 is partially in the axial direction from the opening 13 of the magnet 2, the protruding Part of the hub 3 is designed as a hollow cylinder.
  • the outside diameter of the protruding part of the hub is so as shown in Figure 1, smaller than the inner diameter of the magnet 2 at the corresponding end of the magnet 2.
  • the Hub 3 At the end of the hub 3 lying in the magnet, the Hub 3 on a movement thread 4 in which a threaded spindle can be led.
  • the hub 3 is in the area of the movement thread 4 cylindrical and facing the inner surface of the magnet 2 at a constant distance.
  • the shoulder lying between the areas 8 and 9 can serve to widen the threaded spindle as a stop surface.
  • the inside diameter of the area 8 corresponds to the outside diameter of the movement thread 4, whereas the inside diameter of the area 9 is larger than the outside diameter of the movement thread 4.
  • the hub 3 is non-rotatably connected to the magnet 2 by the projections 5.
  • the projections 5 protrude radially from the hub 3 and are completely surrounded by the magnet 2. Such an arrangement of the projections 5 in the magnet 2 is only possible by insert molding around the hub 3 provided with the projections 5.
  • the hub 3 has in the sections abutting the magnet 2 6 and 7 different radii through which the Hub 3 is secured against displacement in the axial direction.
  • the core 11 additionally shown in FIG. 1 also serves his hollow cylinder 12 to do so when molding around the hub 3 the internal thread 4 to the magnet 2 before the injection pressure protect.
  • the hub 3 is molded with the plastic-bonded magnet 2 used in the core 11.
  • the inside diameter corresponds of the core 11 the outer diameter of the hub 3 in the area of the internal thread 4, with which the hub 3 fits exactly into the core 11 can be used.
  • the end face of the hollow cylinder wall 12 supports when spraying the magnet 2 from paragraph 10 of the hub 3.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Permanent Field Magnets Of Synchronous Machinery (AREA)

Abstract

The rotor (1) has an outer magnet (2) with an opening and a hub (3) protruding from the opening, connected to the magnet and with an internal thread (4) on its end within the magnet. The external dia. of the hub, at least in the region of the internal thread, is smaller than the internal dia. of the opening (13) of the magnet in this region. In the region in which it is connected to the hub, the magnet has internal radial recesses in which protrusions formed on the hub engage at least partly.

Description

Die Erfindung betrifft einen Rotor für einen Elektromotor, der einen außenliegenden, mit einer Öffnung versehenen Magneten und eine in der Öffnung angeordnete und mit dem Magneten verbundene Nabe mit einem Innengewinde aufweist. Weiterhin betrifft die Erfindung ein Verfahren zur Herstellung eines erfindungsgemäßen Rotors.The invention relates to a rotor for an electric motor, the an external magnet with an opening and one located in the opening and connected to the magnet Has hub with an internal thread. Furthermore concerns the invention a method for producing an inventive Rotors.

Die Verwendung solcher Naben für Rotoren in Elektromotoren ist hinlänglich bekannt. Beispielsweise weist der in der deutschen Patentschrift PS 32 38 674 offenbarte Rotor für einen Synchronmotor eine mit einem Ringmagneten durch eine besonders gestaltete Verzahnung kraftschlüssig verbundene Nabe auf. Nachteilig an einem solchen Rotor ist, daß zum exakten Einsetzen der Nabe in den Magneten eine sehr niedrige Fertigungstoleranz erforderlich ist. Weiterhin ist nachteilig, daß beim Einpressen der Nabe in den Magneten Deformationen der Nabe auftreten können, die den Rotor gegebenenfalls sogar unbrauchbar machen können.The use of such hubs for rotors in electric motors is well known. For example, in the German Patent PS 32 38 674 disclosed rotor for a synchronous motor one with a ring magnet by a special one designed toothing non-positively connected hub. A disadvantage of such a rotor is that it can be inserted precisely the hub in the magnets has a very low manufacturing tolerance is required. Another disadvantage is that the Pressing the hub into the magnet Deformations of the hub can occur, which may even make the rotor unusable can do.

Des weiteren ist ein Verfahren zur Herstellung eines Rotors für einen Elektromotor bekannt, bei dem die Nabe mit einem kunststoffgebundenen Magneten umspritzt wird. Nachteilig an einem solchen Herstellungsverfahren für einen Rotor ist, daß es durch den Spritzdruck zu Deformationen der Nabe im Bereich des Innengewindes kommen kann. Furthermore, there is a method of manufacturing a rotor known for an electric motor in which the hub with a plastic-encapsulated magnets. Disadvantageous Such a manufacturing process for a rotor is that there is deformation of the hub in the area due to the injection pressure of the internal thread can come.

Von diesem Stand der Technik ausgehend liegt der Erfindung die Aufgabe zugrunde, einen Rotor und ein Verfahren zu dessen Herstellung bereitzustellen, bei dem das Innengewinde der Nabe vor Beschädigungen oder Deformationen durch den Magneten während der Herstellung und während des Gebrauchs wirkungsvoll geschützt ist.Starting from this prior art, the invention lies Task based on a rotor and a method for its manufacture provide where the internal thread of the hub from damage or deformation by the magnet during effective during manufacture and use is protected.

Erfindungsgemäß wird die Aufgabe dadurch gelöst, daß bei einem Rotor der eingangs genannten Art der Außendurchmesser der Nabe mindestens im Bereich des Innengewindes kleiner als der Innendurchmesser der Öffnung des Magneten in diesem Bereich ist.According to the invention the object is achieved in that Rotor of the type mentioned the outer diameter of the hub at least in the area of the internal thread smaller than the internal diameter the opening of the magnet is in this area.

Durch eine solche Ausgestaltung ist der gegen Deformationen und Beschädigungen empfindliche Teil der Nabe, nämlich der Bereich des Innengewindes, von dem umgebenden Magneten beabstandet. Durch eine solche Beabstandung von Nabe und Magnet kann keine Kraft vom Magneten auf die Nabe übertragen werden. Weiterhin ist an einem so ausgestalteten Rotor vorteilhaft, daß selbst beim Auftreten von Kräften auf die Nabe das als Bewegungsgewinde dienende Innengewinde nicht deformiert werden kann.Such a configuration prevents deformation and damage sensitive part of the hub, namely the area of the internal thread, spaced from the surrounding magnet. Such a spacing of the hub and magnet can no force is transferred from the magnet to the hub. Farther is advantageous on a rotor designed in such a way that even when forces are exerted on the hub as a movement thread serving internal thread are not deformed can.

In einer vorteilhaften Ausführung weist der Magnet des Rotors in dem Bereich, in dem er mit der Nabe verbunden ist, innenliegend radiale Vertiefungen auf, in die die Vorsprünge der Nabe mindestens teilweise eingreifen. Durch die Verwendung solcher Vorsprünge ist die Nabe drehfest mit dem Magneten verbunden.In an advantageous embodiment, the magnet of the rotor inside in the area where it is connected to the hub radial recesses into which the projections of the Intervene at least partially. By using it such projections the hub is rotatably with the magnet connected.

Eine drehfeste Verbindung kann ebenfalls durch Vertiefungen in der Nabe bewirkt werden, die beim Umspritzen mit Magnetmaterial ausgefüllt werden.A non-rotatable connection can also be made by recesses in the hub will be caused when encapsulated with magnetic material fill out.

In einer bevorzugten Ausführungsform weist die Nabe in axialer Richtung einen sich an das Innengewinde anschließenden Bereich mit einer zylinderförmigen Innenwand auf, dessen Durchmesser gleich oder etwas größer als der Außendurchmesser des Innengewindes ist. Mit dem vergrößerten Durchmesser des sich an das Innengewinde anschließenden Bereichs wird eine Reibung mit einer in der Nabe angeordneten Achse vermieden. Allgemein kann der zylinderförmige Teil der Nabe auch mit einem beliebig großen Durchmesser oder sich konisch zum Innengewinde hin verjüngend ausgeführt sein. Mit einem so geformten zylindrischen Bereich kann ein leichteres Entfernen der Nabe aus dem Spritzgießwerkzeug erreicht werden.In a preferred embodiment, the hub faces axially Direction of an area adjoining the internal thread with a cylindrical inner wall whose diameter equal to or slightly larger than the outside diameter of the internal thread is. With the enlarged diameter of the Female thread adjoining area will have friction an axis arranged in the hub avoided. Generally can the cylindrical part of the hub also with any large diameter or tapering towards the internal thread be executed. With such a cylindrical shape The area may be easier to remove the hub from the injection mold can be achieved.

Weiterhin kann sich an diesen Bereich in axialer Richtung ein zweiter Bereich mit einem gegenüber dem Außendurchmesser des Innengewindes erweiterten Innendurchmesser anschließen. Der zwischen den beiden Bereichen angeordnete Absatz kann bei der Verwendung einer durch die Nabe geführten Gewindespindel mit entsprechender stufenförmiger Verbreiterung als Anschlagfläche für diese dienen.Furthermore, this area can move in the axial direction second area with a compared to the outer diameter of the Connect the internal thread of the expanded inner diameter. Of the paragraph arranged between the two areas can at Use of a threaded spindle guided through the hub corresponding step-widening as a stop surface serve for this.

Zweckmäßigerweise weist der Magnet in dem Bereich, in dem er mit der Nabe verbunden ist, zwei Abschnitte mit unterschiedlichen Innendurchmessern auf. Durch eine solche Ausformung ist die Nabe zusätzlich in axialer Richtung gegen ein Verschieben innerhalb des Magneten gesichert.The magnet expediently points in the area in which it connected to the hub, two sections with different Inner diameters. Such a shape is the hub additionally against axial displacement in the axial direction secured within the magnet.

In einer bevorzugten Ausbildung der Erfindung besteht die Nabe aus Kunststoff. Durch die mit einem Bewegungsgewinde versehene Nabe ist eine Gewindespindel geführt. Dabei erweist sich Kunststoff als ein besonders geeigneter Werkstoff, der als guter Reibpartner für verschiedene Werkstoffe einer Gewindespindel vorteilhafte Eigenschaften aufweist. Gerade bei der Verwendung eines Bewegungsgewindes ist das Vermeiden von Deformationen und Beschädigungen für ein gutes Laufverhalten von Rotor und Gewindespindel wichtig. Zur Verbesserung von thermischen und mechanischen Eigenschaften des verwendeten Kunststoffs können auch Füllstoffe verwendet werden. Durch die Verwendung von Füllstoffen können das Reibverhalten, die Wärmeleitfähigkeit und die Vibrationsdämpfung des Kunststoffs vorteilhaft beeinflußt werden. Außerdem ist die Herstellung einer Kunststoffnabe besonders preisgünstig und damit gut für eine Massenfertigung geeignet. In a preferred embodiment of the invention, the hub is made made of plastic. Through the provided with a movement thread A threaded spindle is guided in the hub. It turns out Plastic as a particularly suitable material that as good friction partner for different materials of a threaded spindle has advantageous properties. Especially with the Using a motion thread is to avoid deformation and damage for good running behavior of Rotor and lead screw important. To improve thermal and mechanical properties of the plastic used fillers can also be used. By using it of fillers can affect the friction behavior, the thermal conductivity and the vibration damping of the plastic advantageous to be influenced. In addition, the manufacture of one Plastic hub particularly inexpensive and therefore good for one Suitable for mass production.

Ebenso kann der Magnet als ein kunststoffgebundener Magnet ausgebildet sein. Solche kunststoffgebundenen Magnete können im Spritzgußverfahren einfach und mit niedrigen Kosten hergestellt werden. Dabei kann der Magnet isotrop oder anisotrop ausgebildet sein. Bei anisotroper Herstellung wird der Magnet direkt im Werkzeug magnetisiert.The magnet can also be used as a plastic-bonded magnet be trained. Such plastic-bonded magnets can simply and inexpensively manufactured by injection molding will. The magnet can be isotropic or anisotropic be trained. The magnet is used for anisotropic production magnetized directly in the tool.

Die Aufgabenstellung wird ebenfalls durch ein Verfahren zur Herstellung eines erfindungsgemäßen Rotors gelöst. Bei dem Verfahren wird die Nabe vor dem Umspritzen mit dem Magnetwerkstoff in einen Kern eingesetzt, der die Nabe im Bereich des Innengewindes in Form eines Hohlzylinders umschließt, wobei der Innendurchmesser des Hohlzylinders im wesentlichen dem Außendurchmesser der Nabe im Bereich des Innengewindes entspricht. Nach dem Spritzen des Magneten wird der Kern aus dem Magneten entfernt. Hierbei ist der Abstand zwischen der Nabe im Bereich des Innengewindes und dem umliegenden Magneten durch die Dicke der Wand des Hohlzylinders vorgegeben. Bei diesem Herstellungsverfahren eines Rotors übt der Spritzdruck keine Kraft auf die Nabe aus. Indem der Bereich des Innengewindes der Nabe von dem Magneten beabstandet ist, kann der Spritzdruck nicht direkt auf die Nabe übertragen werden, so daß Deformationen der Nabe und des Innengewindes vermieden werden.The task is also determined by a procedure for Production of a rotor according to the invention solved. In which The hub is moved before the encapsulation with the magnetic material inserted in a core that the hub in the area of Encloses internal thread in the form of a hollow cylinder, wherein the inner diameter of the hollow cylinder is essentially that Corresponds to the outer diameter of the hub in the area of the internal thread. After the magnet has been sprayed, the core is removed from the Magnets removed. Here is the distance between the hub in the area of the internal thread and the surrounding magnet given by the thickness of the wall of the hollow cylinder. At This manufacturing process of a rotor is exerted by spray pressure no force on the hub. By the area of the internal thread the hub is spaced from the magnet, the Spray pressure cannot be transferred directly to the hub, so that deformations of the hub and the internal thread are avoided will.

Eine bevorzugte Ausführungsform wird in den nachfolgenden Figuren beschrieben. Hierbei zeigt:

Fig. 1
den Querschnitt A-A durch einen erfindungsgemäßen Rotor und
Fig. 2
den Querschnitt B-B des erfindungsgemäßen Rotors.
A preferred embodiment is described in the following figures. Here shows:
Fig. 1
the cross section AA through a rotor according to the invention and
Fig. 2
the cross section BB of the rotor according to the invention.

Der Rotor 1 weist einen außenliegenden zylinderförmigen Magneten 2 und eine teilweise in diesem Magneten angeordnete Nabe 3 auf. Die Nabe 3 steht hierbei in axialer Richtung teilweise aus der Öffnung 13 des Magneten 2 hervor, wobei der hervorstehende Teil der Nabe 3 als ein Hohlzylinder ausgebildet ist. The rotor 1 has an external cylindrical magnet 2 and a hub partially arranged in this magnet 3 on. The hub 3 is partially in the axial direction from the opening 13 of the magnet 2, the protruding Part of the hub 3 is designed as a hollow cylinder.

Der Außendurchmesser des vorstehenden Teils der Nabe ist, so wie in Figur 1 dargestellt, kleiner als der Innendurchmesser des Magneten 2 an dem entsprechendem Ende des Magneten 2.The outside diameter of the protruding part of the hub is so as shown in Figure 1, smaller than the inner diameter of the magnet 2 at the corresponding end of the magnet 2.

An dem in dem Magneten liegenden Ende der Nabe 3 weist die Nabe 3 ein Bewegungsgewinde 4 auf, in dem eine Gewindespindel geführt sein kann. Die Nabe 3 ist in dem Bereich des Bewegungsgewindes 4 zylinderförmig und weist zu der Innenfläche des Magneten 2 einen konstanten Abstand auf.At the end of the hub 3 lying in the magnet, the Hub 3 on a movement thread 4 in which a threaded spindle can be led. The hub 3 is in the area of the movement thread 4 cylindrical and facing the inner surface of the magnet 2 at a constant distance.

Bei einer Drehung des Rotors 1 wird die Gewindespindel in axialer Richtung durch die Bereiche 8 und 9 bewegt. Der zwischen den Bereichen 8 und 9 liegende Absatz kann einer Verbreiterung der Gewindespindel als Anschlagfläche dienen. Der Innendurchmesser des Bereichs 8 entspricht dem Außendurchmesser des Bewegungsgewinde 4, wohingegen der Innendurchmesser des Bereichs 9 größer als der Außendurchmesser des Bewegungsgewindes 4 ist.
Die Nabe 3 ist mit dem Magneten 2 durch die Vorsprünge 5 drehfest verbunden. Die Vorsprünge 5 stehen radial aus der Nabe 3 hervor und sind vollständig von dem Magneten 2 umgeben. Eine solche Anordnung der Vorsprünge 5 in dem Magneten 2 ist erst durch das Umspritzen der mit den Vorsprüngen 5 versehenen Nabe 3 möglich.When the rotor 1 rotates, the threaded spindle is moved in the axial direction through the regions 8 and 9. The shoulder lying between the areas 8 and 9 can serve to widen the threaded spindle as a stop surface. The inside diameter of the area 8 corresponds to the outside diameter of the movement thread 4, whereas the inside diameter of the area 9 is larger than the outside diameter of the movement thread 4.
The hub 3 is non-rotatably connected to the magnet 2 by the projections 5. The projections 5 protrude radially from the hub 3 and are completely surrounded by the magnet 2. Such an arrangement of the projections 5 in the magnet 2 is only possible by insert molding around the hub 3 provided with the projections 5.

Die Nabe 3 weist in den an dem Magneten 2 anliegenden Abschnitten 6 und 7 unterschiedliche Radien auf, durch die die Nabe 3 in axialer Richtung gegen Verschiebung gesichert ist.The hub 3 has in the sections abutting the magnet 2 6 and 7 different radii through which the Hub 3 is secured against displacement in the axial direction.

Der in der Fig. 1 zusätzlich dargestellte Kern 11 dient mit seinem Hohlzylinder 12 dazu, beim Umspritzen der Nabe 3 mit dem Magneten 2 das Innengewinde 4 vor dem Spritzdruck zu schützen. Hierzu wird die Nabe 3 vor dem Umspritzen mit dem kunststoffgebundenen Magneten 2 in den Kern 11 eingesetzt.The core 11 additionally shown in FIG. 1 also serves his hollow cylinder 12 to do so when molding around the hub 3 the internal thread 4 to the magnet 2 before the injection pressure protect. For this purpose, the hub 3 is molded with the plastic-bonded magnet 2 used in the core 11.

Wie aus der Fig. 1 ersichtlich, entspricht der Innendurchmesser des Kerns 11 dem Außendurchmesser der Nabe 3 im Bereich des Innengewindes 4, womit die Nabe 3 genau in den Kern 11 einsetzbar ist. Die Stirnseite der Hohlzylinderwand 12 stützt beim Spritzen des Magneten 2 den Absatz 10 der Nabe 3 ab. As can be seen from FIG. 1, the inside diameter corresponds of the core 11 the outer diameter of the hub 3 in the area of the internal thread 4, with which the hub 3 fits exactly into the core 11 can be used. The end face of the hollow cylinder wall 12 supports when spraying the magnet 2 from paragraph 10 of the hub 3.

BezugszeichenlisteReference list

11
Rotorrotor
22nd
Magnetmagnet
33rd
Nabehub
44th
Innengewindeinner thread
55
Vorsprunghead Start
66
erster Abschnittfirst section
77
zweiter Abschnittsecond part
88th
erster Bereichfirst area
99
zweiter Bereichsecond area
1010th
Absatzparagraph
1111
Kerncore
1212th
HohlzylinderHollow cylinder
1313
Öffnungopening

Claims (10)

Rotor (1) für einen Elektromotor, der einen außenliegenden, mit einer Öffnung versehenen Magneten (2) und eine aus der Öffnung hervorstehende und mit dem Magneten (2) verbundene Nabe (3) aufweist, die an ihrem im Magneten (2) liegenden Ende ein Innengewinde (4) aufweist, dadurch gekennzeichnet, daß der Außendurchmesser der Nabe (3) mindestens im Bereich des Innengewindes (4) kleiner als der Innendurchmesser der Öffnung (13) des Magneten (2) in diesem Bereich ist.Rotor (1) for an electric motor, which has an external magnet (2) with an opening and a hub (3) protruding from the opening and connected to the magnet (2), at its end lying in the magnet (2) has an internal thread (4), characterized in that the external diameter of the hub (3), at least in the area of the internal thread (4), is smaller than the internal diameter of the opening (13) of the magnet (2) in this area. Rotor (1) nach Anspruch 1, dadurch gekennzeichnet, daß der Magnet (2) in dem Bereich, in dem er mit der Nabe (3) verbunden ist, innenliegend radiale Vertiefungen aufweist, in die an der Nabe (3) ausgeformte Vorsprünge (5) mindestens teilweise eingreifen.Rotor (1) according to claim 1, characterized in that the magnet (2) in the area in which it is connected to the hub (3) has radial recesses on the inside, into the projections (5) formed on the hub (3) ) intervene at least partially. Rotor (1) nach einem der Ansprüche 1 oder 2, dadurch gekennzeichnet, daß die Nabe (3) in axialer Richtung einen sich an das Innengewinde (4) anschließenden Bereich (8) mit einer zylinderförmigen Innenwand aufweist, dessen Durchmesser gleich oder etwas größer als der Außendurchmesser des Innengewindes (4) ist.Rotor (1) according to one of claims 1 or 2, characterized in that the hub (3) in the axial direction has a region (8) with a cylindrical inner wall adjoining the internal thread (4), the diameter of which is equal to or slightly larger than the outer diameter of the internal thread (4). Rotor (1) nach Anspruch 3, dadurch gekennzeichnet, daß sich an den Bereich (8) in axialer Richtung ein zweiter Bereich (9) mit einem gegenüber dem Außendurchmesser des Innengewindes (4) erweiterten Innendurchmesser anschließt.Rotor (1) according to claim 3, characterized in that the region (8) is adjoined in the axial direction by a second region (9) with an inner diameter which is enlarged compared to the outer diameter of the internal thread (4). Rotor (1) nach einem der Ansprüche 1 bis 4, dadurch gekennzeichnet, daß der mit dem Magneten (2) verbundene Bereich der Nabe (3) zwei Abschnitte (6, 7) mit unterschiedlichen Innendurchmessern aufweist.Rotor (1) according to one of claims 1 to 4, characterized in that the area of the hub (3) connected to the magnet (2) has two sections (6, 7) with different inside diameters. Rotor (1) nach einem der Ansprüche 1 bis 5, dadurch gekennzeichnet, daß die Nabe (3) aus Kunststoff besteht.Rotor (1) according to one of claims 1 to 5, characterized in that the hub (3) consists of plastic. Rotor (1) nach einem der Ansprüche 1 bis 6, dadurch gekennzeichnet, daß der Magnet (2) als kunststoffgebundener Magnet ausgebildet ist.Rotor (1) according to one of claims 1 to 6, characterized in that the magnet (2) is designed as a plastic-bonded magnet. Rotor (1) nach Anspruch 7, dadurch gekennzeichnet, daß der Magnet (2) isotrop ausgebildet ist.Rotor (1) according to claim 7, characterized in that the magnet (2) is isotropic. Rotor (1) nach Anspruch 7, dadurch gekennzeichnet, daß der Magnet (2) anisotrop ausgebildet ist.Rotor (1) according to claim 7, characterized in that the magnet (2) is anisotropic. Verfahren zur Herstellung eines Rotors (1) nach einem der Ansprüche 1 bis 7, dadurch gekennzeichnet, daß die Nabe (3) vor dem Umspritzen mit dem Magnetwerkstoff in einen Kern (11) eingesetzt wird, der die Nabe (3) in dem Bereich des Innengewindes (4) in Form eines Hohlzylinders (12) umschließt, wobei der Innendurchmesser des Hohlzylinders (12) im wesentlichen dem Außendurchmesser der Nabe (3) im Bereich des Innengewindes (4) entspricht, und der nach dem Spritzen des Magnetwerkstoffes wieder von der Nabe (3) entfernt wird.Method for producing a rotor (1) according to one of Claims 1 to 7, characterized in that the hub (3) is inserted into a core (11) before the extrusion coating with the magnetic material, said hub (3) being in the region of the Encloses internal thread (4) in the form of a hollow cylinder (12), the inside diameter of the hollow cylinder (12) essentially corresponding to the outside diameter of the hub (3) in the area of the inside thread (4), and again after the magnetic material has been sprayed from the hub (3) is removed.
EP98104529A 1997-04-10 1998-03-13 Rotor for an electric motor Expired - Lifetime EP0871279B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE19714780A DE19714780C2 (en) 1997-04-10 1997-04-10 Rotor for an electric motor
DE19714780 1997-04-10

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EP0871279A1 true EP0871279A1 (en) 1998-10-14
EP0871279B1 EP0871279B1 (en) 2000-02-16

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US (1) US5945758A (en)
EP (1) EP0871279B1 (en)
DE (2) DE19714780C2 (en)

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JP2002010547A (en) * 2000-06-16 2002-01-11 Yamaha Motor Co Ltd Permanent magnet rotor and manufacturing method thereof
EP1273957A1 (en) * 2001-07-02 2003-01-08 Leuze electronic GmbH + Co. Opto-electronic device
JP4458988B2 (en) * 2004-08-31 2010-04-28 日本精機株式会社 Magnet rotor, movable magnet type instrument having the magnet rotor, and stepping motor having the magnet rotor
US7504754B2 (en) * 2005-10-31 2009-03-17 Caterpillar Inc. Rotor having multiple permanent-magnet pieces in a cavity
US7436095B2 (en) * 2005-10-31 2008-10-14 Caterpillar Inc. Rotary electric machine
US7436096B2 (en) * 2005-10-31 2008-10-14 Caterpillar Inc. Rotor having permanent magnets and axialy-extending channels
DE102007027235B4 (en) * 2007-06-13 2010-08-19 Continental Automotive Gmbh Magnetized nut for mounting a compressor wheel of an exhaust gas turbocharger on the turbo shaft and method for producing such
TW201212483A (en) * 2010-09-13 2012-03-16 Sunonwealth Electr Mach Ind Co Rotor of a motor
DE102011054955A1 (en) * 2011-10-31 2013-05-02 Minebea Co., Ltd. Rotor assembly for fractional horsepower motor in actuator component, has magnet carrier comprising two connectors such that connectors form positive connection and frictional connection to recess of ring magnet
JP2013132094A (en) 2011-12-20 2013-07-04 Shimano Inc Hub shell, rotor and bicycle power generator hub

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EP0623989A1 (en) * 1993-05-03 1994-11-09 Saia Ag Linear actuator

Also Published As

Publication number Publication date
DE59800091D1 (en) 2000-03-23
DE19714780A1 (en) 1998-10-22
EP0871279B1 (en) 2000-02-16
DE19714780C2 (en) 2002-01-31
US5945758A (en) 1999-08-31

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